Sodium cyclamate (sweetener code 952) is an artificial sweetener. It is 30–50 times sweeter than sucrose (table sugar), making it the least potent of the commercially used artificial sweeteners. It is often used with other artificial sweeteners, especially saccharin; the mixture of 10 parts cyclamate to 1 part saccharin is common and masks the off-tastes of both sweeteners.[1] It is less expensive than most sweeteners, including sucralose, and is stable under heating.

Prior to 1973, Abbott Laboratories produced sodium cyclamate (Sucaryl) by a mixture of ingredients including the addition of pure sodium (flakes or rods suspended in kerosene) with cyclohexylamine, chilled and filtered through a high speed centrifugal separator, dried, granulated and micro-pulverised for powder or tablet usage.

Cyclamate was discovered in 1937 at the University of Illinois by graduate student Michael Sveda. Sveda was working in the lab on the synthesis of anti-fever medication. He put his cigarette down on the lab bench, and, when he put it back in his mouth, he discovered the sweet taste of cyclamate.[3][4]

The patent for cyclamate was purchased by DuPont but later sold to Abbott Laboratories, which undertook the necessary studies and submitted a New Drug Application in 1950. Abbott intended to use cyclamate to mask the bitterness of certain drugs such as antibiotics and pentobarbital. In 1958, it was designated GRAS (Generally Recognized as Safe) by the United States Food and Drug Administration. Cyclamate was marketed in tablet form for use by diabetics as an alternative tabletop sweetener, as well as in a liquid form. As cyclamate is stable to heat, it was and is marketed as suitable for use in cooking and baking.

But controversy developed when, in 1966, a study reported that some intestinal bacteria could desulfonate cyclamate to produce cyclohexylamine, a compound suspected to have some chronic toxicity in animals. Further research resulted in a 1969 study that found the common 10:1 cyclamate:saccharin mixture to increase the incidence of bladdercancer in rats. The released study was showing that eight out of 240 rats fed a mixture of saccharin and cyclamates, at levels of humans ingesting 350 cans of diet soda per day, developed bladder tumors.[5]

Sales continued to expand, and in 1969, annual sales of cyclamate had reached $1 billion, which increased pressure from public safety watchdogs to restrict the usage of cyclamate. In October 1969, Department of Health, Education & Welfare Secretary Robert Finch, bypassing Food and Drug Administration Commissioner Herbert L. Ley, Jr., removed the GRAS designation from cyclamate and banned its use in general-purpose foods, though it remained available for restricted use in dietary products with additional labeling; in October 1970, the FDA, under a new Commissioner, banned cyclamate completely from all food and drug products in the United States.[6]

Abbott Laboratories claimed that its own studies were unable to reproduce the 1969 study's results, and, in 1973, Abbott petitioned the FDA to lift the ban on cyclamate. This petition was eventually denied in 1980 by FDA Commissioner Jere Goyan.[7] Abbott Labs, together with the Calorie Control Council (a political lobby representing the diet foods industry), filed a second petition in 1982. Although the FDA has stated that a review of all available evidence does not implicate cyclamate as a carcinogen in mice or rats,[8] cyclamate remains banned from food products in the United States. The petition is now held in abeyance, though not actively considered.[9] It is unclear whether this is at the request of Abbott Labs or because the petition is considered to be insufficient by the FDA.

In 2000 a paper was published describing the results of a 24 year long experiment in which 16 monkeys were fed a normal diet and twenty-one monkeys were fed either 100 or 500 mg/kg cyclamate per day; the higher dose corresponds to about 30 cans of a diet beverage. Two of the high-dosed monkeys and one of the lower-dosed monkeys were found to have malignant cancer, each with a different kind of cancer, and three benign tumors were found. The authors concluded that the study found that cyclamate was not carcinogenic because the cancers were all different and there was no way to link cyclamate to each of them.[10] The substance did not show any DNA-damaging properties in DNA repair assays.[10]

^"High-Intensity Sweeteners". U.S. Food and Drug Administration. 19 May 2014. Retrieved 8 February 2015. Are there any high-intensity sweeteners that are currently prohibited by FDA for use in the United States but are used in other countries? Yes. Cyclamates and its salts (such as calcium cyclamate, sodium cyclamate, magnesium cyclamate, and potassium cyclamate) are currently prohibited from use in the United States.